/* $Id: APICInternal.h 64655 2016-11-14 10:46:07Z vboxsync $ */ /** @file * APIC - Advanced Programmable Interrupt Controller. */ /* * Copyright (C) 2016 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ #ifndef ___APICInternal_h #define ___APICInternal_h #include #include #include /** @defgroup grp_apic_int Internal * @ingroup grp_apic * @internal * @{ */ /** The APIC hardware version number for Pentium 4. */ #define XAPIC_HARDWARE_VERSION_P4 UINT8_C(0x14) /** Maximum number of LVT entries for Pentium 4. */ #define XAPIC_MAX_LVT_ENTRIES_P4 UINT8_C(6) /** Size of the APIC ID bits for Pentium 4. */ #define XAPIC_APIC_ID_BIT_COUNT_P4 UINT8_C(8) /** The APIC hardware version number for Pentium 6. */ #define XAPIC_HARDWARE_VERSION_P6 UINT8_C(0x10) /** Maximum number of LVT entries for Pentium 6. */ #define XAPIC_MAX_LVT_ENTRIES_P6 UINT8_C(4) /** Size of the APIC ID bits for Pentium 6. */ #define XAPIC_APIC_ID_BIT_COUNT_P6 UINT8_C(4) /** The APIC hardware version we are emulating. */ #define XAPIC_HARDWARE_VERSION XAPIC_HARDWARE_VERSION_P4 #define VMCPU_TO_XAPICPAGE(a_pVCpu) ((PXAPICPAGE)(CTX_SUFF((a_pVCpu)->apic.s.pvApicPage))) #define VMCPU_TO_CXAPICPAGE(a_pVCpu) ((PCXAPICPAGE)(CTX_SUFF((a_pVCpu)->apic.s.pvApicPage))) #define VMCPU_TO_X2APICPAGE(a_pVCpu) ((PX2APICPAGE)(CTX_SUFF((a_pVCpu)->apic.s.pvApicPage))) #define VMCPU_TO_CX2APICPAGE(a_pVCpu) ((PCX2APICPAGE)(CTX_SUFF((a_pVCpu)->apic.s.pvApicPage))) #define VMCPU_TO_APICCPU(a_pVCpu) (&(a_pVCpu)->apic.s) #define VM_TO_APIC(a_pVM) (&(a_pVM)->apic.s) #define VM_TO_APICDEV(a_pVM) CTX_SUFF(VM_TO_APIC(a_pVM)->pApicDev) #define APICCPU_TO_XAPICPAGE(a_ApicCpu) ((PXAPICPAGE)(CTX_SUFF((a_ApicCpu)->pvApicPage))) #define APICCPU_TO_CXAPICPAGE(a_ApicCpu) ((PCXAPICPAGE)(CTX_SUFF((a_ApicCpu)->pvApicPage))) /** Whether the APIC is in X2APIC mode or not. */ #define XAPIC_IN_X2APIC_MODE(a_pVCpu) ( ( ((a_pVCpu)->apic.s.uApicBaseMsr) \ & (MSR_IA32_APICBASE_EN | MSR_IA32_APICBASE_EXTD)) \ == (MSR_IA32_APICBASE_EN | MSR_IA32_APICBASE_EXTD) ) /** Get an xAPIC page offset for an x2APIC MSR value. */ #define X2APIC_GET_XAPIC_OFF(a_uMsr) ((((a_uMsr) - MSR_IA32_X2APIC_START) << 4) & UINT32_C(0xff0)) /** Get an x2APIC MSR for an xAPIC page offset. */ #define XAPIC_GET_X2APIC_MSR(a_offReg) ((((a_offReg) & UINT32_C(0xff0)) >> 4) | MSR_IA32_X2APIC_START) /** Illegal APIC vector value start. */ #define XAPIC_ILLEGAL_VECTOR_START UINT8_C(0) /** Illegal APIC vector value end (inclusive). */ #define XAPIC_ILLEGAL_VECTOR_END UINT8_C(15) /** Reserved APIC vector value start. */ #define XAPIC_RSVD_VECTOR_START UINT8_C(16) /** Reserved APIC vector value end (inclusive). */ #define XAPIC_RSVD_VECTOR_END UINT8_C(31) /** Vector offset in an APIC 256-bit sparse register. */ #define XAPIC_REG256_VECTOR_OFF(a_Vector) (((a_Vector) & UINT32_C(0xe0)) >> 1) /** Bit position at offset in an APIC 256-bit sparse register. */ #define XAPIC_REG256_VECTOR_BIT(a_Vector) ((a_Vector) & UINT32_C(0x1f)) /** Maximum valid offset for a register (16-byte aligned, 4 byte wide access). */ #define XAPIC_OFF_MAX_VALID (sizeof(XAPICPAGE) - 4 * sizeof(uint32_t)) #if XAPIC_HARDWARE_VERSION == XAPIC_HARDWARE_VERSION_P6 /** ESR - Send checksum error. */ # define XAPIC_ESR_SEND_CHKSUM_ERROR RT_BIT(0) /** ESR - Send accept error. */ # define XAPIC_ESR_RECV_CHKSUM_ERROR RT_BIT(1) /** ESR - Send accept error. */ # define XAPIC_ESR_SEND_ACCEPT_ERROR RT_BIT(2) /** ESR - Receive accept error. */ # define XAPIC_ESR_RECV_ACCEPT_ERROR RT_BIT(3) #endif /** ESR - Redirectable IPI. */ #define XAPIC_ESR_REDIRECTABLE_IPI RT_BIT(4) /** ESR - Send accept error. */ #define XAPIC_ESR_SEND_ILLEGAL_VECTOR RT_BIT(5) /** ESR - Send accept error. */ #define XAPIC_ESR_RECV_ILLEGAL_VECTOR RT_BIT(6) /** ESR - Send accept error. */ #define XAPIC_ESR_ILLEGAL_REG_ADDRESS RT_BIT(7) /** ESR - Valid write-only bits. */ #define XAPIC_ESR_WO_VALID UINT32_C(0x0) /** TPR - Valid bits. */ #define XAPIC_TPR_VALID UINT32_C(0xff) /** TPR - Task-priority class. */ #define XAPIC_TPR_TP UINT32_C(0xf0) /** TPR - Task-priority subclass. */ #define XAPIC_TPR_TP_SUBCLASS UINT32_C(0x0f) /** TPR - Gets the task-priority class. */ #define XAPIC_TPR_GET_TP(a_Tpr) ((a_Tpr) & XAPIC_TPR_TP) /** TPR - Gets the task-priority subclass. */ #define XAPIC_TPR_GET_TP_SUBCLASS(a_Tpr) ((a_Tpr) & XAPIC_TPR_TP_SUBCLASS) /** PPR - Valid bits. */ #define XAPIC_PPR_VALID UINT32_C(0xff) /** PPR - Processor-priority class. */ #define XAPIC_PPR_PP UINT32_C(0xf0) /** PPR - Processor-priority subclass. */ #define XAPIC_PPR_PP_SUBCLASS UINT32_C(0x0f) /** PPR - Get the processor-priority class. */ #define XAPIC_PPR_GET_PP(a_Ppr) ((a_Ppr) & XAPIC_PPR_PP) /** PPR - Get the processor-priority subclass. */ #define XAPIC_PPR_GET_PP_SUBCLASS(a_Ppr) ((a_Ppr) & XAPIC_PPR_PP_SUBCLASS) /** Timer mode - One-shot. */ #define XAPIC_TIMER_MODE_ONESHOT UINT32_C(0) /** Timer mode - Periodic. */ #define XAPIC_TIMER_MODE_PERIODIC UINT32_C(1) /** Timer mode - TSC deadline. */ #define XAPIC_TIMER_MODE_TSC_DEADLINE UINT32_C(2) /** LVT - The vector. */ #define XAPIC_LVT_VECTOR UINT32_C(0xff) /** LVT - Gets the vector from an LVT entry. */ #define XAPIC_LVT_GET_VECTOR(a_Lvt) ((a_Lvt) & XAPIC_LVT_VECTOR) /** LVT - The mask. */ #define XAPIC_LVT_MASK RT_BIT(16) /** LVT - Is the LVT masked? */ #define XAPIC_LVT_IS_MASKED(a_Lvt) RT_BOOL((a_Lvt) & XAPIC_LVT_MASK) /** LVT - Timer mode. */ #define XAPIC_LVT_TIMER_MODE RT_BIT(17) /** LVT - Timer TSC-deadline timer mode. */ #define XAPIC_LVT_TIMER_TSCDEADLINE RT_BIT(18) /** LVT - Gets the timer mode. */ #define XAPIC_LVT_GET_TIMER_MODE(a_Lvt) (XAPICTIMERMODE)(((a_Lvt) >> 17) & UINT32_C(3)) /** LVT - Delivery mode. */ #define XAPIC_LVT_DELIVERY_MODE (RT_BIT(8) | RT_BIT(9) | RT_BIT(10)) /** LVT - Gets the delivery mode. */ #define XAPIC_LVT_GET_DELIVERY_MODE(a_Lvt) (XAPICDELIVERYMODE)(((a_Lvt) >> 8) & UINT32_C(7)) /** LVT - Delivery status. */ #define XAPIC_LVT_DELIVERY_STATUS RT_BIT(12) /** LVT - Trigger mode. */ #define XAPIC_LVT_TRIGGER_MODE RT_BIT(15) /** LVT - Gets the trigger mode. */ #define XAPIC_LVT_GET_TRIGGER_MODE(a_Lvt) (XAPICTRIGGERMODE)(((a_Lvt) >> 15) & UINT32_C(1)) /** LVT - Remote IRR. */ #define XAPIC_LVT_REMOTE_IRR RT_BIT(14) /** LVT - Gets the Remote IRR. */ #define XAPIC_LVT_GET_REMOTE_IRR(a_Lvt) (((a_Lvt) >> 14) & 1) /** LVT - Interrupt Input Pin Polarity. */ #define XAPIC_LVT_POLARITY RT_BIT(13) /** LVT - Gets the Interrupt Input Pin Polarity. */ #define XAPIC_LVT_GET_POLARITY(a_Lvt) (((a_Lvt) >> 13) & 1) /** LVT - Valid bits common to all LVTs. */ #define XAPIC_LVT_COMMON_VALID (XAPIC_LVT_VECTOR | XAPIC_LVT_DELIVERY_STATUS | XAPIC_LVT_MASK) /** LVT CMCI - Valid bits. */ #define XAPIC_LVT_CMCI_VALID (XAPIC_LVT_COMMON_VALID | XAPIC_LVT_DELIVERY_MODE) /** LVT Timer - Valid bits. */ #define XAPIC_LVT_TIMER_VALID (XAPIC_LVT_COMMON_VALID | XAPIC_LVT_TIMER_MODE | XAPIC_LVT_TIMER_TSCDEADLINE) /** LVT Thermal - Valid bits. */ #define XAPIC_LVT_THERMAL_VALID (XAPIC_LVT_COMMON_VALID | XAPIC_LVT_DELIVERY_MODE) /** LVT Perf - Valid bits. */ #define XAPIC_LVT_PERF_VALID (XAPIC_LVT_COMMON_VALID | XAPIC_LVT_DELIVERY_MODE) /** LVT LINTx - Valid bits. */ #define XAPIC_LVT_LINT_VALID ( XAPIC_LVT_COMMON_VALID | XAPIC_LVT_DELIVERY_MODE | XAPIC_LVT_DELIVERY_STATUS \ | XAPIC_LVT_POLARITY | XAPIC_LVT_REMOTE_IRR | XAPIC_LVT_TRIGGER_MODE) /** LVT Error - Valid bits. */ #define XAPIC_LVT_ERROR_VALID (XAPIC_LVT_COMMON_VALID) /** SVR - The vector. */ #define XAPIC_SVR_VECTOR UINT32_C(0xff) /** SVR - APIC Software enable. */ #define XAPIC_SVR_SOFTWARE_ENABLE RT_BIT(8) /** SVR - Supress EOI broadcast. */ #define XAPIC_SVR_SUPRESS_EOI_BROADCAST RT_BIT(12) #if XAPIC_HARDWARE_VERSION == XAPIC_HARDWARE_VERSION_P4 /** SVR - Valid bits. */ # define XAPIC_SVR_VALID (XAPIC_SVR_VECTOR | XAPIC_SVR_SOFTWARE_ENABLE) #else # error "Implement Pentium and P6 family APIC architectures" #endif /** DFR - Valid bits. */ #define XAPIC_DFR_VALID UINT32_C(0xf0000000) /** DFR - Reserved bits that must always remain set. */ #define XAPIC_DFR_RSVD_MB1 UINT32_C(0x0fffffff) /** DFR - The model. */ #define XAPIC_DFR_MODEL UINT32_C(0xf) /** DFR - Gets the destination model. */ #define XAPIC_DFR_GET_MODEL(a_uReg) (((a_uReg) >> 28) & XAPIC_DFR_MODEL) /** LDR - Valid bits. */ #define XAPIC_LDR_VALID UINT32_C(0xff000000) /** LDR - Cluster ID mask (x2APIC). */ #define X2APIC_LDR_CLUSTER_ID UINT32_C(0xffff0000) /** LDR - Mask of the LDR cluster ID (x2APIC). */ #define X2APIC_LDR_GET_CLUSTER_ID(a_uReg) ((a_uReg) & X2APIC_LDR_CLUSTER_ID) /** LDR - Mask of the LDR logical ID (x2APIC). */ #define X2APIC_LDR_LOGICAL_ID UINT32_C(0x0000ffff) /** LDR - Flat mode logical ID mask. */ #define XAPIC_LDR_FLAT_LOGICAL_ID UINT32_C(0xff) /** LDR - Clustered mode cluster ID mask. */ #define XAPIC_LDR_CLUSTERED_CLUSTER_ID UINT32_C(0xf0) /** LDR - Clustered mode logical ID mask. */ #define XAPIC_LDR_CLUSTERED_LOGICAL_ID UINT32_C(0x0f) /** LDR - Gets the clustered mode cluster ID. */ #define XAPIC_LDR_CLUSTERED_GET_CLUSTER_ID(a_uReg) ((a_uReg) & XAPIC_LDR_CLUSTERED_CLUSTER_ID) /** EOI - Valid write-only bits. */ #define XAPIC_EOI_WO_VALID UINT32_C(0x0) /** Timer ICR - Valid bits. */ #define XAPIC_TIMER_ICR_VALID UINT32_C(0xffffffff) /** Timer DCR - Valid bits. */ #define XAPIC_TIMER_DCR_VALID (RT_BIT(0) | RT_BIT(1) | RT_BIT(3)) /** Self IPI - Valid bits. */ #define XAPIC_SELF_IPI_VALID UINT32_C(0xff) /** Self IPI - The vector. */ #define XAPIC_SELF_IPI_VECTOR UINT32_C(0xff) /** Self IPI - Gets the vector. */ #define XAPIC_SELF_IPI_GET_VECTOR(a_uReg) ((a_uReg) & XAPIC_SELF_IPI_VECTOR) /** ICR Low - The Vector. */ #define XAPIC_ICR_LO_VECTOR UINT32_C(0xff) /** ICR Low - Gets the vector. */ #define XAPIC_ICR_LO_GET_VECTOR(a_uIcr) ((a_uIcr) & XAPIC_ICR_LO_VECTOR) /** ICR Low - The delivery mode. */ #define XAPIC_ICR_LO_DELIVERY_MODE (RT_BIT(8) | RT_BIT(9) | RT_BIT(10)) /** ICR Low - The destination mode. */ #define XAPIC_ICR_LO_DEST_MODE RT_BIT(11) /** ICR Low - The delivery status. */ #define XAPIC_ICR_LO_DELIVERY_STATUS RT_BIT(12) /** ICR Low - The level. */ #define XAPIC_ICR_LO_LEVEL RT_BIT(14) /** ICR Low - The trigger mode. */ #define XAPIC_ICR_TRIGGER_MODE RT_BIT(15) /** ICR Low - The destination shorthand. */ #define XAPIC_ICR_LO_DEST_SHORTHAND (RT_BIT(18) | RT_BIT(19)) /** ICR Low - Valid write bits. */ #define XAPIC_ICR_LO_WR_VALID ( XAPIC_ICR_LO_VECTOR | XAPIC_ICR_LO_DELIVERY_MODE | XAPIC_ICR_LO_DEST_MODE \ | XAPIC_ICR_LO_LEVEL | XAPIC_ICR_TRIGGER_MODE | XAPIC_ICR_LO_DEST_SHORTHAND) /** ICR High - The destination field. */ #define XAPIC_ICR_HI_DEST UINT32_C(0xff000000) /** ICR High - Get the destination field. */ #define XAPIC_ICR_HI_GET_DEST(a_u32IcrHi) (((a_u32IcrHi) >> 24) & XAPIC_ICR_HI_DEST) /** ICR High - Valid write bits in xAPIC mode. */ #define XAPIC_ICR_HI_WR_VALID XAPIC_ICR_HI_DEST /** APIC ID broadcast mask - x2APIC mode. */ #define X2APIC_ID_BROADCAST_MASK UINT32_C(0xffffffff) #if XAPIC_HARDWARE_VERSION == XAPIC_HARDWARE_VERSION_P4 /** APIC ID broadcast mask - xAPIC mode. */ # define XAPIC_ID_BROADCAST_MASK UINT32_C(0xff) #else # error "Implement Pentium and P6 family APIC architectures" #endif /** * The xAPIC sparse 256-bit register. */ typedef union XAPIC256BITREG { /** The sparse-bitmap view. */ struct { uint32_t u32Reg; uint32_t uReserved0[3]; } u[8]; /** The 32-bit view. */ uint32_t au32[32]; } XAPIC256BITREG; /** Pointer to an xAPIC sparse bitmap register. */ typedef XAPIC256BITREG *PXAPIC256BITREG; /** Pointer to a const xAPIC sparse bitmap register. */ typedef XAPIC256BITREG const *PCXAPIC256BITREG; AssertCompileSize(XAPIC256BITREG, 128); /** * The xAPIC memory layout as per Intel/AMD specs. */ typedef struct XAPICPAGE { /* 0x00 - Reserved. */ uint32_t uReserved0[8]; /* 0x20 - APIC ID. */ struct { uint8_t u8Reserved0[3]; uint8_t u8ApicId; uint32_t u32Reserved0[3]; } id; /* 0x30 - APIC version register. */ union { struct { #if XAPIC_HARDWARE_VERSION == XAPIC_HARDWARE_VERSION_P4 uint8_t u8Version; #else # error "Implement Pentium and P6 family APIC architectures" #endif uint8_t uReserved0; uint8_t u8MaxLvtEntry; uint8_t fEoiBroadcastSupression : 1; uint8_t u7Reserved1 : 7; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32Version; uint32_t u32Reserved0[3]; } all; } version; /* 0x40 - Reserved. */ uint32_t uReserved1[16]; /* 0x80 - Task Priority Register (TPR). */ struct { uint8_t u8Tpr; uint8_t u8Reserved0[3]; uint32_t u32Reserved0[3]; } tpr; /* 0x90 - Arbitration Priority Register (APR). */ struct { uint8_t u8Apr; uint8_t u8Reserved0[3]; uint32_t u32Reserved0[3]; } apr; /* 0xA0 - Processor Priority Register (PPR). */ struct { uint8_t u8Ppr; uint8_t u8Reserved0[3]; uint32_t u32Reserved0[3]; } ppr; /* 0xB0 - End Of Interrupt Register (EOI). */ struct { uint32_t u32Eoi; uint32_t u32Reserved0[3]; } eoi; /* 0xC0 - Remote Read Register (RRD). */ struct { uint32_t u32Rrd; uint32_t u32Reserved0[3]; } rrd; /* 0xD0 - Logical Destination Register (LDR). */ union { struct { uint8_t u8Reserved0[3]; uint8_t u8LogicalApicId; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32Ldr; uint32_t u32Reserved0[3]; } all; } ldr; /* 0xE0 - Destination Format Register (DFR). */ union { struct { uint32_t u28ReservedMb1 : 28; /* MB1 */ uint32_t u4Model : 4; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32Dfr; uint32_t u32Reserved0[3]; } all; } dfr; /* 0xF0 - Spurious-Interrupt Vector Register (SVR). */ union { struct { uint32_t u8SpuriousVector : 8; uint32_t fApicSoftwareEnable : 1; uint32_t u3Reserved0 : 3; uint32_t fSupressEoiBroadcast : 1; uint32_t u19Reserved1 : 19; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32Svr; uint32_t u32Reserved0[3]; } all; } svr; /* 0x100 - In-service Register (ISR). */ XAPIC256BITREG isr; /* 0x180 - Trigger Mode Register (TMR). */ XAPIC256BITREG tmr; /* 0x200 - Interrupt Request Register (IRR). */ XAPIC256BITREG irr; /* 0x280 - Error Status Register (ESR). */ union { struct { #if XAPIC_HARDWARE_VERSION == XAPIC_HARDWARE_VERSION_P4 uint32_t u4Reserved0 : 4; #else # error "Implement Pentium and P6 family APIC architectures" #endif uint32_t fRedirectableIpi : 1; uint32_t fSendIllegalVector : 1; uint32_t fRcvdIllegalVector : 1; uint32_t fIllegalRegAddr : 1; uint32_t u24Reserved1 : 24; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32Errors; uint32_t u32Reserved0[3]; } all; } esr; /* 0x290 - Reserved. */ uint32_t uReserved2[28]; /* 0x300 - Interrupt Command Register (ICR) - Low. */ union { struct { uint32_t u8Vector : 8; uint32_t u3DeliveryMode : 3; uint32_t u1DestMode : 1; uint32_t u1DeliveryStatus : 1; uint32_t fReserved0 : 1; uint32_t u1Level : 1; uint32_t u1TriggerMode : 1; uint32_t u2Reserved1 : 2; uint32_t u2DestShorthand : 2; uint32_t u12Reserved2 : 12; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32IcrLo; uint32_t u32Reserved0[3]; } all; } icr_lo; /* 0x310 - Interrupt Comannd Register (ICR) - High. */ union { struct { uint32_t u24Reserved0 : 24; uint32_t u8Dest : 8; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32IcrHi; uint32_t u32Reserved0[3]; } all; } icr_hi; /* 0x320 - Local Vector Table (LVT) Timer Register. */ union { struct { uint32_t u8Vector : 8; uint32_t u4Reserved0 : 4; uint32_t u1DeliveryStatus : 1; uint32_t u3Reserved1 : 3; uint32_t u1Mask : 1; uint32_t u2TimerMode : 2; uint32_t u13Reserved2 : 13; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32LvtTimer; uint32_t u32Reserved0[3]; } all; } lvt_timer; /* 0x330 - Local Vector Table (LVT) Thermal Sensor Register. */ #if XAPIC_HARDWARE_VERSION == XAPIC_HARDWARE_VERSION_P4 union { struct { uint32_t u8Vector : 8; uint32_t u3DeliveryMode : 3; uint32_t u1Reserved0 : 1; uint32_t u1DeliveryStatus : 1; uint32_t u3Reserved1 : 3; uint32_t u1Mask : 1; uint32_t u15Reserved2 : 15; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32LvtThermal; uint32_t u32Reserved0[3]; } all; } lvt_thermal; #else # error "Implement Pentium and P6 family APIC architectures" #endif /* 0x340 - Local Vector Table (LVT) Performance Monitor Counter (PMC) Register. */ union { struct { uint32_t u8Vector : 8; uint32_t u3DeliveryMode : 3; uint32_t u1Reserved0 : 1; uint32_t u1DeliveryStatus : 1; uint32_t u3Reserved1 : 3; uint32_t u1Mask : 1; uint32_t u15Reserved2 : 15; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32LvtPerf; uint32_t u32Reserved0[3]; } all; } lvt_perf; /* 0x350 - Local Vector Table (LVT) LINT0 Register. */ union { struct { uint32_t u8Vector : 8; uint32_t u3DeliveryMode : 3; uint32_t u1Reserved0 : 1; uint32_t u1DeliveryStatus : 1; uint32_t u1IntrPolarity : 1; uint32_t u1RemoteIrr : 1; uint32_t u1TriggerMode : 1; uint32_t u1Mask : 1; uint32_t u15Reserved2 : 15; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32LvtLint0; uint32_t u32Reserved0[3]; } all; } lvt_lint0; /* 0x360 - Local Vector Table (LVT) LINT1 Register. */ union { struct { uint32_t u8Vector : 8; uint32_t u3DeliveryMode : 3; uint32_t u1Reserved0 : 1; uint32_t u1DeliveryStatus : 1; uint32_t u1IntrPolarity : 1; uint32_t u1RemoteIrr : 1; uint32_t u1TriggerMode : 1; uint32_t u1Mask : 1; uint32_t u15Reserved2 : 15; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32LvtLint1; uint32_t u32Reserved0[3]; } all; } lvt_lint1; /* 0x370 - Local Vector Table (LVT) Error Register. */ union { struct { uint32_t u8Vector : 8; uint32_t u4Reserved0 : 4; uint32_t u1DeliveryStatus : 1; uint32_t u3Reserved1 : 3; uint32_t u1Mask : 1; uint32_t u15Reserved2 : 15; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32LvtError; uint32_t u32Reserved0[3]; } all; } lvt_error; /* 0x380 - Timer Initial Counter Register. */ struct { uint32_t u32InitialCount; uint32_t u32Reserved0[3]; } timer_icr; /* 0x390 - Timer Current Counter Register. */ struct { uint32_t u32CurrentCount; uint32_t u32Reserved0[3]; } timer_ccr; /* 0x3A0 - Reserved. */ uint32_t u32Reserved3[16]; /* 0x3E0 - Timer Divide Configuration Register. */ union { struct { uint32_t u2DivideValue0 : 2; uint32_t u1Reserved0 : 1; uint32_t u1DivideValue1 : 1; uint32_t u28Reserved1 : 28; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32DivideValue; uint32_t u32Reserved0[3]; } all; } timer_dcr; /* 0x3F0 - Reserved. */ uint8_t u8Reserved0[3088]; } XAPICPAGE; /** Pointer to a XAPICPAGE struct. */ typedef XAPICPAGE *PXAPICPAGE; /** Pointer to a const XAPICPAGE struct. */ typedef const XAPICPAGE *PCXAPICPAGE; AssertCompileSize(XAPICPAGE, 4096); AssertCompileMemberOffset(XAPICPAGE, id, XAPIC_OFF_ID); AssertCompileMemberOffset(XAPICPAGE, version, XAPIC_OFF_VERSION); AssertCompileMemberOffset(XAPICPAGE, tpr, XAPIC_OFF_TPR); AssertCompileMemberOffset(XAPICPAGE, apr, XAPIC_OFF_APR); AssertCompileMemberOffset(XAPICPAGE, ppr, XAPIC_OFF_PPR); AssertCompileMemberOffset(XAPICPAGE, eoi, XAPIC_OFF_EOI); AssertCompileMemberOffset(XAPICPAGE, rrd, XAPIC_OFF_RRD); AssertCompileMemberOffset(XAPICPAGE, ldr, XAPIC_OFF_LDR); AssertCompileMemberOffset(XAPICPAGE, dfr, XAPIC_OFF_DFR); AssertCompileMemberOffset(XAPICPAGE, svr, XAPIC_OFF_SVR); AssertCompileMemberOffset(XAPICPAGE, isr, XAPIC_OFF_ISR0); AssertCompileMemberOffset(XAPICPAGE, tmr, XAPIC_OFF_TMR0); AssertCompileMemberOffset(XAPICPAGE, irr, XAPIC_OFF_IRR0); AssertCompileMemberOffset(XAPICPAGE, esr, XAPIC_OFF_ESR); AssertCompileMemberOffset(XAPICPAGE, icr_lo, XAPIC_OFF_ICR_LO); AssertCompileMemberOffset(XAPICPAGE, icr_hi, XAPIC_OFF_ICR_HI); AssertCompileMemberOffset(XAPICPAGE, lvt_timer, XAPIC_OFF_LVT_TIMER); AssertCompileMemberOffset(XAPICPAGE, lvt_thermal, XAPIC_OFF_LVT_THERMAL); AssertCompileMemberOffset(XAPICPAGE, lvt_perf, XAPIC_OFF_LVT_PERF); AssertCompileMemberOffset(XAPICPAGE, lvt_lint0, XAPIC_OFF_LVT_LINT0); AssertCompileMemberOffset(XAPICPAGE, lvt_lint1, XAPIC_OFF_LVT_LINT1); AssertCompileMemberOffset(XAPICPAGE, lvt_error, XAPIC_OFF_LVT_ERROR); AssertCompileMemberOffset(XAPICPAGE, timer_icr, XAPIC_OFF_TIMER_ICR); AssertCompileMemberOffset(XAPICPAGE, timer_ccr, XAPIC_OFF_TIMER_CCR); AssertCompileMemberOffset(XAPICPAGE, timer_dcr, XAPIC_OFF_TIMER_DCR); /** * The x2APIC memory layout as per Intel/AMD specs. */ typedef struct X2APICPAGE { /* 0x00 - Reserved. */ uint32_t uReserved0[8]; /* 0x20 - APIC ID. */ struct { uint32_t u32ApicId; uint32_t u32Reserved0[3]; } id; /* 0x30 - APIC version register. */ union { struct { uint8_t u8Version; uint8_t u8Reserved0; uint8_t u8MaxLvtEntry; uint8_t fEoiBroadcastSupression : 1; uint8_t u7Reserved1 : 7; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32Version; uint32_t u32Reserved2[3]; } all; } version; /* 0x40 - Reserved. */ uint32_t uReserved1[16]; /* 0x80 - Task Priority Register (TPR). */ struct { uint8_t u8Tpr; uint8_t u8Reserved0[3]; uint32_t u32Reserved0[3]; } tpr; /* 0x90 - Reserved. */ uint32_t uReserved2[4]; /* 0xA0 - Processor Priority Register (PPR). */ struct { uint8_t u8Ppr; uint8_t u8Reserved0[3]; uint32_t u32Reserved0[3]; } ppr; /* 0xB0 - End Of Interrupt Register (EOI). */ struct { uint32_t u32Eoi; uint32_t u32Reserved0[3]; } eoi; /* 0xC0 - Remote Read Register (RRD). */ struct { uint32_t u32Rrd; uint32_t u32Reserved0[3]; } rrd; /* 0xD0 - Logical Destination Register (LDR). */ struct { uint32_t u32LogicalApicId; uint32_t u32Reserved1[3]; } ldr; /* 0xE0 - Reserved. */ uint32_t uReserved3[4]; /* 0xF0 - Spurious-Interrupt Vector Register (SVR). */ union { struct { uint32_t u8SpuriousVector : 8; uint32_t fApicSoftwareEnable : 1; uint32_t u3Reserved0 : 3; uint32_t fSupressEoiBroadcast : 1; uint32_t u19Reserved1 : 19; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32Svr; uint32_t uReserved0[3]; } all; } svr; /* 0x100 - In-service Register (ISR). */ XAPIC256BITREG isr; /* 0x180 - Trigger Mode Register (TMR). */ XAPIC256BITREG tmr; /* 0x200 - Interrupt Request Register (IRR). */ XAPIC256BITREG irr; /* 0x280 - Error Status Register (ESR). */ union { struct { #if XAPIC_HARDWARE_VERSION == XAPIC_HARDWARE_VERSION_P4 uint32_t u4Reserved0 : 4; #else # error "Implement Pentium and P6 family APIC architectures" #endif uint32_t fRedirectableIpi : 1; uint32_t fSendIllegalVector : 1; uint32_t fRcvdIllegalVector : 1; uint32_t fIllegalRegAddr : 1; uint32_t u24Reserved1 : 24; uint32_t uReserved0[3]; } u; struct { uint32_t u32Errors; uint32_t u32Reserved0[3]; } all; } esr; /* 0x290 - Reserved. */ uint32_t uReserved4[28]; /* 0x300 - Interrupt Command Register (ICR) - Low. */ union { struct { uint32_t u8Vector : 8; uint32_t u3DeliveryMode : 3; uint32_t u1DestMode : 1; uint32_t u2Reserved0 : 2; uint32_t u1Level : 1; uint32_t u1TriggerMode : 1; uint32_t u2Reserved1 : 2; uint32_t u2DestShorthand : 2; uint32_t u12Reserved2 : 12; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32IcrLo; uint32_t u32Reserved3[3]; } all; } icr_lo; /* 0x310 - Interrupt Comannd Register (ICR) - High. */ struct { uint32_t u32IcrHi; uint32_t uReserved1[3]; } icr_hi; /* 0x320 - Local Vector Table (LVT) Timer Register. */ union { struct { uint32_t u8Vector : 8; uint32_t u4Reserved0 : 4; uint32_t u1DeliveryStatus : 1; uint32_t u3Reserved1 : 3; uint32_t u1Mask : 1; uint32_t u2TimerMode : 2; uint32_t u13Reserved2 : 13; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32LvtTimer; uint32_t u32Reserved0[3]; } all; } lvt_timer; /* 0x330 - Local Vector Table (LVT) Thermal Sensor Register. */ union { struct { uint32_t u8Vector : 8; uint32_t u3DeliveryMode : 3; uint32_t u1Reserved0 : 1; uint32_t u1DeliveryStatus : 1; uint32_t u3Reserved1 : 3; uint32_t u1Mask : 1; uint32_t u15Reserved2 : 15; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32LvtThermal; uint32_t uReserved0[3]; } all; } lvt_thermal; /* 0x340 - Local Vector Table (LVT) Performance Monitor Counter (PMC) Register. */ union { struct { uint32_t u8Vector : 8; uint32_t u3DeliveryMode : 3; uint32_t u1Reserved0 : 1; uint32_t u1DeliveryStatus : 1; uint32_t u3Reserved1 : 3; uint32_t u1Mask : 1; uint32_t u15Reserved2 : 15; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32LvtPerf; uint32_t u32Reserved0[3]; } all; } lvt_perf; /* 0x350 - Local Vector Table (LVT) LINT0 Register. */ union { struct { uint32_t u8Vector : 8; uint32_t u3DeliveryMode : 3; uint32_t u1Reserved0 : 1; uint32_t u1DeliveryStatus : 1; uint32_t u1IntrPolarity : 1; uint32_t u1RemoteIrr : 1; uint32_t u1TriggerMode : 1; uint32_t u1Mask : 1; uint32_t u15Reserved2 : 15; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32LvtLint0; uint32_t u32Reserved0[3]; } all; } lvt_lint0; /* 0x360 - Local Vector Table (LVT) LINT1 Register. */ union { struct { uint32_t u8Vector : 8; uint32_t u3DeliveryMode : 3; uint32_t u1Reserved0 : 1; uint32_t u1DeliveryStatus : 1; uint32_t u1IntrPolarity : 1; uint32_t u1RemoteIrr : 1; uint32_t u1TriggerMode : 1; uint32_t u1Mask : 1; uint32_t u15Reserved2 : 15; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32LvtLint1; uint32_t u32Reserved0[3]; } all; } lvt_lint1; /* 0x370 - Local Vector Table (LVT) Error Register. */ union { struct { uint32_t u8Vector : 8; uint32_t u4Reserved0 : 4; uint32_t u1DeliveryStatus : 1; uint32_t u3Reserved1 : 3; uint32_t u1Mask : 1; uint32_t u15Reserved2 : 15; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32LvtError; uint32_t u32Reserved0[3]; } all; } lvt_error; /* 0x380 - Timer Initial Counter Register. */ struct { uint32_t u32InitialCount; uint32_t u32Reserved0[3]; } timer_icr; /* 0x390 - Timer Current Counter Register. */ struct { uint32_t u32CurrentCount; uint32_t u32Reserved0[3]; } timer_ccr; /* 0x3A0 - Reserved. */ uint32_t uReserved5[16]; /* 0x3E0 - Timer Divide Configuration Register. */ union { struct { uint32_t u2DivideValue0 : 2; uint32_t u1Reserved0 : 1; uint32_t u1DivideValue1 : 1; uint32_t u28Reserved1 : 28; uint32_t u32Reserved0[3]; } u; struct { uint32_t u32DivideValue; uint32_t u32Reserved0[3]; } all; } timer_dcr; /* 0x3F0 - Self IPI Register. */ struct { uint32_t u8Vector : 8; uint32_t u24Reserved0 : 24; uint32_t u32Reserved0[3]; } self_ipi; /* 0x400 - Reserved. */ uint8_t u8Reserved0[3072]; } X2APICPAGE; /** Pointer to a X2APICPAGE struct. */ typedef X2APICPAGE *PX2APICPAGE; /** Pointer to a const X2APICPAGE struct. */ typedef const X2APICPAGE *PCX2APICPAGE; AssertCompileSize(X2APICPAGE, 4096); AssertCompileSize(X2APICPAGE, sizeof(XAPICPAGE)); AssertCompileMemberOffset(X2APICPAGE, id, XAPIC_OFF_ID); AssertCompileMemberOffset(X2APICPAGE, version, XAPIC_OFF_VERSION); AssertCompileMemberOffset(X2APICPAGE, tpr, XAPIC_OFF_TPR); AssertCompileMemberOffset(X2APICPAGE, ppr, XAPIC_OFF_PPR); AssertCompileMemberOffset(X2APICPAGE, eoi, XAPIC_OFF_EOI); AssertCompileMemberOffset(X2APICPAGE, rrd, XAPIC_OFF_RRD); AssertCompileMemberOffset(X2APICPAGE, ldr, XAPIC_OFF_LDR); AssertCompileMemberOffset(X2APICPAGE, svr, XAPIC_OFF_SVR); AssertCompileMemberOffset(X2APICPAGE, isr, XAPIC_OFF_ISR0); AssertCompileMemberOffset(X2APICPAGE, tmr, XAPIC_OFF_TMR0); AssertCompileMemberOffset(X2APICPAGE, irr, XAPIC_OFF_IRR0); AssertCompileMemberOffset(X2APICPAGE, esr, XAPIC_OFF_ESR); AssertCompileMemberOffset(X2APICPAGE, icr_lo, XAPIC_OFF_ICR_LO); AssertCompileMemberOffset(X2APICPAGE, icr_hi, XAPIC_OFF_ICR_HI); AssertCompileMemberOffset(X2APICPAGE, lvt_timer, XAPIC_OFF_LVT_TIMER); AssertCompileMemberOffset(X2APICPAGE, lvt_thermal, XAPIC_OFF_LVT_THERMAL); AssertCompileMemberOffset(X2APICPAGE, lvt_perf, XAPIC_OFF_LVT_PERF); AssertCompileMemberOffset(X2APICPAGE, lvt_lint0, XAPIC_OFF_LVT_LINT0); AssertCompileMemberOffset(X2APICPAGE, lvt_lint1, XAPIC_OFF_LVT_LINT1); AssertCompileMemberOffset(X2APICPAGE, lvt_error, XAPIC_OFF_LVT_ERROR); AssertCompileMemberOffset(X2APICPAGE, timer_icr, XAPIC_OFF_TIMER_ICR); AssertCompileMemberOffset(X2APICPAGE, timer_ccr, XAPIC_OFF_TIMER_CCR); AssertCompileMemberOffset(X2APICPAGE, timer_dcr, XAPIC_OFF_TIMER_DCR); AssertCompileMemberOffset(X2APICPAGE, self_ipi, X2APIC_OFF_SELF_IPI); /** * APIC MSR access error. * @note The values must match the array indices in apicMsrAccessError(). */ typedef enum APICMSRACCESS { /* MSR read while not in x2APIC. */ APICMSRACCESS_INVALID_READ_MODE = 0, /* MSR write while not in x2APIC. */ APICMSRACCESS_INVALID_WRITE_MODE, /* MSR read for a reserved/unknown/invalid MSR. */ APICMSRACCESS_READ_RSVD_OR_UNKNOWN, /* MSR write for a reserved/unknown/invalid MSR. */ APICMSRACCESS_WRITE_RSVD_OR_UNKNOWN, /* MSR read for a write-only MSR. */ APICMSRACCESS_READ_WRITE_ONLY, /* MSR write for a read-only MSR. */ APICMSRACCESS_WRITE_READ_ONLY, /* MSR read to reserved bits. */ APICMSRACCESS_READ_RSVD_BITS, /* MSR write to reserved bits. */ APICMSRACCESS_WRITE_RSVD_BITS, /* MSR write with invalid value. */ APICMSRACCESS_WRITE_INVALID, /** MSR write disallowed due to incompatible config. */ APICMSRACCESS_WRITE_DISALLOWED_CONFIG, /** MSR read disallowed due to incompatible config. */ APICMSRACCESS_READ_DISALLOWED_CONFIG, /* Count of enum members (don't use). */ APICMSRACCESS_COUNT } APICMSRACCESS; /** @name xAPIC Destination Format Register bits. * See Intel spec. 10.6.2.2 "Logical Destination Mode". * @{ */ typedef enum XAPICDESTFORMAT { XAPICDESTFORMAT_FLAT = 0xf, XAPICDESTFORMAT_CLUSTER = 0 } XAPICDESTFORMAT; /** @} */ /** @name xAPIC Timer Mode bits. * See Intel spec. 10.5.1 "Local Vector Table". * @{ */ typedef enum XAPICTIMERMODE { XAPICTIMERMODE_ONESHOT = XAPIC_TIMER_MODE_ONESHOT, XAPICTIMERMODE_PERIODIC = XAPIC_TIMER_MODE_PERIODIC, XAPICTIMERMODE_TSC_DEADLINE = XAPIC_TIMER_MODE_TSC_DEADLINE } XAPICTIMERMODE; /** @} */ /** @name xAPIC Interrupt Command Register bits. * See Intel spec. 10.6.1 "Interrupt Command Register (ICR)". * See Intel spec. 10.5.1 "Local Vector Table". * @{ */ /** * xAPIC destination shorthand. */ typedef enum XAPICDESTSHORTHAND { XAPICDESTSHORTHAND_NONE = 0, XAPICDESTSHORTHAND_SELF, XAPIDDESTSHORTHAND_ALL_INCL_SELF, XAPICDESTSHORTHAND_ALL_EXCL_SELF } XAPICDESTSHORTHAND; /** * xAPIC INIT level de-assert delivery mode. */ typedef enum XAPICINITLEVEL { XAPICINITLEVEL_DEASSERT = 0, XAPICINITLEVEL_ASSERT } XAPICLEVEL; /** * xAPIC destination mode. */ typedef enum XAPICDESTMODE { XAPICDESTMODE_PHYSICAL = 0, XAPICDESTMODE_LOGICAL } XAPICDESTMODE; /** * xAPIC delivery mode type. */ typedef enum XAPICDELIVERYMODE { XAPICDELIVERYMODE_FIXED = 0, XAPICDELIVERYMODE_LOWEST_PRIO = 1, XAPICDELIVERYMODE_SMI = 2, XAPICDELIVERYMODE_NMI = 4, XAPICDELIVERYMODE_INIT = 5, XAPICDELIVERYMODE_STARTUP = 6, XAPICDELIVERYMODE_EXTINT = 7 } XAPICDELIVERYMODE; /** @} */ /** @def APIC_CACHE_LINE_SIZE * Padding (in bytes) for aligning data in different cache lines. Present * generation x86 CPUs use 64-byte cache lines[1]. However, Intel NetBurst * architecture supposedly uses 128-byte cache lines[2]. Since 128 is a * multiple of 64, we use the larger one here. * * [1] - Intel spec "Table 11-1. Characteristics of the Caches, TLBs, Store * Buffer, and Write Combining Buffer in Intel 64 and IA-32 Processors" * [2] - Intel spec. 8.10.6.7 "Place Locks and Semaphores in Aligned, 128-Byte * Blocks of Memory". */ #define APIC_CACHE_LINE_SIZE 128 /** * APIC Pending-Interrupt Bitmap (PIB). */ typedef struct APICPIB { uint64_t volatile au64VectorBitmap[4]; uint32_t volatile fOutstandingNotification; uint8_t au8Reserved[APIC_CACHE_LINE_SIZE - sizeof(uint32_t) - (sizeof(uint64_t) * 4)]; } APICPIB; AssertCompileMemberOffset(APICPIB, fOutstandingNotification, 256 / 8); AssertCompileSize(APICPIB, APIC_CACHE_LINE_SIZE); /** Pointer to a pending-interrupt bitmap. */ typedef APICPIB *PAPICPIB; /** Pointer to a const pending-interrupt bitmap. */ typedef const APICPIB *PCAPICPIB; /** * APIC PDM instance data (per-VM). */ typedef struct APICDEV { /** The device instance - R3 Ptr. */ PPDMDEVINSR3 pDevInsR3; /** Alignment padding. */ R3PTRTYPE(void *) pvAlignment0; /** The device instance - R0 Ptr. */ PPDMDEVINSR0 pDevInsR0; /** Alignment padding. */ R0PTRTYPE(void *) pvAlignment1; /** The device instance - RC Ptr. */ PPDMDEVINSRC pDevInsRC; } APICDEV; /** Pointer to an APIC device. */ typedef APICDEV *PAPICDEV; /** Pointer to a const APIC device. */ typedef APICDEV const *PCAPICDEV; /** * APIC VM Instance data. */ typedef struct APIC { /** @name The APIC PDM device instance. * @{ */ /** The APIC device - R0 ptr. */ R0PTRTYPE(PAPICDEV) pApicDevR0; /** The APIC device - R3 ptr. */ R3PTRTYPE(PAPICDEV) pApicDevR3; /** The APIC device - RC ptr. */ RCPTRTYPE(PAPICDEV) pApicDevRC; /** Alignment padding. */ RTRCPTR RCPtrAlignment0; /** @} */ /** @name The APIC pending-interrupt bitmap (PIB). * @{ */ /** The host-context physical address of the PIB. */ RTHCPHYS HCPhysApicPib; /** The ring-0 memory object of the PIB. */ RTR0MEMOBJ hMemObjApicPibR0; /** The ring-3 mapping of the memory object of the PIB. */ RTR0MEMOBJ hMapObjApicPibR0; /** The APIC PIB virtual address - R0 ptr. */ R0PTRTYPE(void *) pvApicPibR0; /** The APIC PIB virtual address - R3 ptr. */ R3PTRTYPE(void *) pvApicPibR3; /** The APIC PIB virtual address - RC ptr. */ RCPTRTYPE(void *) pvApicPibRC; /** Alignment padding. */ RTRCPTR RCPtrAlignment1; /** The size of the page in bytes. */ uint32_t cbApicPib; /** Alignment padding. */ uint32_t u32Aligment0; /** @} */ /** @name Other miscellaneous data. * @{ */ /** Whether full APIC register virtualization is enabled. */ bool fVirtApicRegsEnabled; /** Whether posted-interrupt processing is enabled. */ bool fPostedIntrsEnabled; /** Whether TSC-deadline timer mode is supported for the guest. */ bool fSupportsTscDeadline; /** Whether this VM has an IO-APIC. */ bool fIoApicPresent; /** Whether RZ is enabled or not (applies to MSR handling as well). */ bool fRZEnabled; /** Whether Hyper-V x2APIC compatibility mode is enabled. */ bool fHyperVCompatMode; /** Alignment padding. */ bool afAlignment[2]; /** The max supported APIC mode from CFGM. */ PDMAPICMODE enmMaxMode; /** Alignment padding. */ uint32_t u32Alignment1; /** @} */ } APIC; /** Pointer to APIC VM instance data. */ typedef APIC *PAPIC; /** Pointer to const APIC VM instance data. */ typedef APIC const *PCAPIC; AssertCompileMemberAlignment(APIC, cbApicPib, 8); AssertCompileMemberAlignment(APIC, fVirtApicRegsEnabled, 8); AssertCompileMemberAlignment(APIC, enmMaxMode, 8); AssertCompileSizeAlignment(APIC, 8); /** * APIC VMCPU Instance data. */ typedef struct APICCPU { /** @name The APIC page. * @{ */ /** The host-context physical address of the page. */ RTHCPHYS HCPhysApicPage; /** The ring-0 memory object of the page. */ RTR0MEMOBJ hMemObjApicPageR0; /** The ring-3 mapping of the memory object of the page. */ RTR0MEMOBJ hMapObjApicPageR0; /** The APIC page virtual address - R0 ptr. */ R0PTRTYPE(void *) pvApicPageR0; /** The APIC page virtual address - R3 ptr. */ R3PTRTYPE(void *) pvApicPageR3; /** The APIC page virtual address - RC ptr. */ RCPTRTYPE(void *) pvApicPageRC; /** Alignment padding. */ RTRCPTR RCPtrAlignment0; /** The size of the page in bytes. */ uint32_t cbApicPage; /** @} */ /** @name Auxiliary state. * @{ */ /** The error status register's internal state. */ uint32_t uEsrInternal; /** The APIC base MSR.*/ uint64_t volatile uApicBaseMsr; /** @} */ /** @name The pending-interrupt bitmaps (PIB). * @{ */ /** The host-context physical address of the page. */ RTHCPHYS HCPhysApicPib; /** The APIC PIB virtual address - R0 ptr. */ R0PTRTYPE(void *) pvApicPibR0; /** The APIC PIB virtual address - R3 ptr. */ R3PTRTYPE(void *) pvApicPibR3; /** The APIC PIB virtual address - RC ptr. */ RCPTRTYPE(void *) pvApicPibRC; /** Alignment padding. */ RTRCPTR RCPtrAlignment1; /** The APIC PIB for level-sensitive interrupts. */ APICPIB ApicPibLevel; /** @} */ /** @name Other miscellaneous data. * @{ */ /** Whether the LINT0 interrupt line is active. */ bool volatile fActiveLint0; /** Whether the LINT1 interrupt line is active. */ bool volatile fActiveLint1; /** Alignment padding. */ uint8_t auAlignment0[6]; /** @} */ /** @name The APIC timer. * @{ */ /** The timer - R0 ptr. */ PTMTIMERR0 pTimerR0; /** The timer - R3 ptr. */ PTMTIMERR3 pTimerR3; /** The timer - RC ptr. */ PTMTIMERRC pTimerRC; /** Alignment padding. */ RTRCPTR RCPtrAlignment2; /** The timer critical sect protecting @a u64TimerInitial */ PDMCRITSECT TimerCritSect; /** The time stamp when the timer was initialized. */ uint64_t u64TimerInitial; /** Cache of timer initial count of the frequency hint to TM. */ uint32_t uHintedTimerInitialCount; /** Cache of timer shift of the frequency hint to TM. */ uint32_t uHintedTimerShift; /** The timer description. */ char szTimerDesc[32]; /** @} */ #ifdef VBOX_WITH_STATISTICS /** @name APIC statistics. * @{ */ /** Number of MMIO reads in RZ. */ STAMCOUNTER StatMmioReadRZ; /** Number of MMIO reads in R3. */ STAMCOUNTER StatMmioReadR3; /** Number of MMIO writes in RZ. */ STAMCOUNTER StatMmioWriteRZ; /** Number of MMIO writes in R3. */ STAMCOUNTER StatMmioWriteR3; /** Number of MSR reads in RZ. */ STAMCOUNTER StatMsrReadRZ; /** Number of MSR reads in R3. */ STAMCOUNTER StatMsrReadR3; /** Number of MSR writes in RZ. */ STAMCOUNTER StatMsrWriteRZ; /** Number of MSR writes in R3. */ STAMCOUNTER StatMsrWriteR3; /** Profiling of APICUpdatePendingInterrupts(). */ STAMPROFILE StatUpdatePendingIntrs; /** Profiling of apicPostInterrupt(). */ STAMPROFILE StatPostIntr; /** Number of times an interrupt is already pending in * apicPostInterrupts().*/ STAMCOUNTER StatPostIntrAlreadyPending; /** Number of times the timer callback is invoked. */ STAMCOUNTER StatTimerCallback; /** Number of times the TPR is written. */ STAMCOUNTER StatTprWrite; /** Number of times the TPR is read. */ STAMCOUNTER StatTprRead; /** Number of times the EOI is written. */ STAMCOUNTER StatEoiWrite; /** Number of times TPR masks an interrupt in apicGetInterrupt(). */ STAMCOUNTER StatMaskedByTpr; /** Number of times PPR masks an interrupt in apicGetInterrupt(). */ STAMCOUNTER StatMaskedByPpr; /** Number of times the timer ICR is written. */ STAMCOUNTER StatTimerIcrWrite; /** Number of times the ICR Lo (send IPI) is written. */ STAMCOUNTER StatIcrLoWrite; /** Number of times the ICR Hi is written. */ STAMCOUNTER StatIcrHiWrite; /** Number of times the full ICR (x2APIC send IPI) is written. */ STAMCOUNTER StatIcrFullWrite; /** @} */ #endif } APICCPU; /** Pointer to APIC VMCPU instance data. */ typedef APICCPU *PAPICCPU; /** Pointer to a const APIC VMCPU instance data. */ typedef APICCPU const *PCAPICCPU; AssertCompileMemberAlignment(APICCPU, uApicBaseMsr, 8); /** * APIC operating modes as returned by apicGetMode(). * * The values match hardware states. * See Intel spec. 10.12.1 "Detecting and Enabling x2APIC Mode". */ typedef enum APICMODE { APICMODE_DISABLED = 0, APICMODE_INVALID, APICMODE_XAPIC, APICMODE_X2APIC } APICMODE; /** * Gets the timer shift value. * * @returns The timer shift value. * @param pXApicPage The xAPIC page. */ DECLINLINE(uint8_t) apicGetTimerShift(PCXAPICPAGE pXApicPage) { /* See Intel spec. 10.5.4 "APIC Timer". */ uint32_t uShift = pXApicPage->timer_dcr.u.u2DivideValue0 | (pXApicPage->timer_dcr.u.u1DivideValue1 << 2); return (uShift + 1) & 7; } RT_C_DECLS_BEGIN /** @def APICBOTHCBDECL * Macro for declaring a callback which is static in HC and exported in GC. */ #if defined(IN_RC) || defined(IN_RING0) # define APICBOTHCBDECL(type) DECLEXPORT(type) #else # define APICBOTHCBDECL(type) DECLCALLBACK(type) #endif const char *apicGetModeName(APICMODE enmMode); const char *apicGetDestFormatName(XAPICDESTFORMAT enmDestFormat); const char *apicGetDeliveryModeName(XAPICDELIVERYMODE enmDeliveryMode); const char *apicGetDestModeName(XAPICDESTMODE enmDestMode); const char *apicGetTriggerModeName(XAPICTRIGGERMODE enmTriggerMode); const char *apicGetDestShorthandName(XAPICDESTSHORTHAND enmDestShorthand); const char *apicGetTimerModeName(XAPICTIMERMODE enmTimerMode); void apicHintTimerFreq(PAPICCPU pApicCpu, uint32_t uInitialCount, uint8_t uTimerShift); APICMODE apicGetMode(uint64_t uApicBaseMsr); APICBOTHCBDECL(uint64_t) apicGetBaseMsr(PPDMDEVINS pDevIns, PVMCPU pVCpu); APICBOTHCBDECL(VBOXSTRICTRC) apicSetBaseMsr(PPDMDEVINS pDevIns, PVMCPU pVCpu, uint64_t uBase); APICBOTHCBDECL(uint8_t) apicGetTpr(PPDMDEVINS pDevIns, PVMCPU pVCpu, bool *pfPending, uint8_t *pu8PendingIntr); APICBOTHCBDECL(void) apicSetTpr(PPDMDEVINS pDevIns, PVMCPU pVCpu, uint8_t u8Tpr); APICBOTHCBDECL(uint64_t) apicGetTimerFreq(PPDMDEVINS pDevIns); APICBOTHCBDECL(int) apicReadMmio(PPDMDEVINS pDevIns, void *pvUser, RTGCPHYS GCPhysAddr, void *pv, unsigned cb); APICBOTHCBDECL(int) apicWriteMmio(PPDMDEVINS pDevIns, void *pvUser, RTGCPHYS GCPhysAddr, void const *pv, unsigned cb); APICBOTHCBDECL(VBOXSTRICTRC) apicReadMsr(PPDMDEVINS pDevIns, PVMCPU pVCpu, uint32_t u32Reg, uint64_t *pu64Val); APICBOTHCBDECL(VBOXSTRICTRC) apicWriteMsr(PPDMDEVINS pDevIns, PVMCPU pVCpu, uint32_t u32Reg, uint64_t u64Val); APICBOTHCBDECL(int) apicGetInterrupt(PPDMDEVINS pDevIns, PVMCPU pVCpu, uint8_t *puVector, uint32_t *puTagSrc); APICBOTHCBDECL(VBOXSTRICTRC) apicLocalInterrupt(PPDMDEVINS pDevIns, PVMCPU pVCpu, uint8_t u8Pin, uint8_t u8Level, int rcRZ); APICBOTHCBDECL(int) apicBusDeliver(PPDMDEVINS pDevIns, uint8_t uDest, uint8_t uDestMode, uint8_t uDeliveryMode, uint8_t uVector, uint8_t uPolarity, uint8_t uTriggerMode, uint32_t uTagSrc); VMM_INT_DECL(bool) apicPostInterrupt(PVMCPU pVCpu, uint8_t uVector, XAPICTRIGGERMODE enmTriggerMode); VMM_INT_DECL(void) apicStartTimer(PVMCPU pVCpu, uint32_t uInitialCount); VMM_INT_DECL(void) apicStopTimer(PVMCPU pVCpu); VMM_INT_DECL(void) apicSetInterruptFF(PVMCPU pVCpu, PDMAPICIRQ enmType); VMM_INT_DECL(void) apicClearInterruptFF(PVMCPU pVCpu, PDMAPICIRQ enmType); #ifdef IN_RING3 VMMR3_INT_DECL(void) apicR3ResetCpu(PVMCPU pVCpu, bool fResetApicBaseMsr); #endif RT_C_DECLS_END /** @} */ #endif